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| − | Hydrogels are three-dimensional systems with hydrophilic polymer chains with high water content. The advantages of hydrogels are the special characteristics such as biocompatibility, elasticity and modifiable chemical properties. There are two kinds of gels, natural and synthetic. The natural ones consists of natural polysaccharides which are harvested from renewable resources and are abundant, nontoxic, inexpensive and biodegradable materials. They receive an increasing attention in various fields, like medicinal research. | + | Hydrogels are three-dimensional systems out of synthetic or natural polymers containing high water content. The natural polysachharides are harvested from renewable resources and are abundant, nontoxic, inexpensive and biodegradable materials. They receive an increasing attention in various fields, like medicinal research<a href="#[1]">[1]</a><a href="#[2]">[2]</a>. |
| − | <br>We want to produce such a hydrogel and modify it to detect pathogenic bacteria visually in wounds. To evaluate an ideal hydrogel, various compositions were tested, like pure chitosan or chitosan in combination with agarose, agar or alginate. During this work various promising hydrogels could be produced. | + | We want to produce such a hydrogel and modify it to detect pathogenic bacteria visually in wounds. To evaluate an ideal hydrogel, various compositions were tested, like pure chitosan or chitosan in combination with agarose, agar or alginate. During this work various promising hydrogels could be produced. |
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| | <p>Patients with burn wounds or other poor-healing wounds, like diabetes wounds, often suffer from various complications such as infections. Until now the common medical bandages have to be removed to monitor the wound healing progress. To examine if there is an infection, which implies the presence of pathogenic bacteria, samples of the wound have to be taken and studied in a specialized laboratory. This is a long time and expensive process and we want to simplify and accelerate this procedure. | | <p>Patients with burn wounds or other poor-healing wounds, like diabetes wounds, often suffer from various complications such as infections. Until now the common medical bandages have to be removed to monitor the wound healing progress. To examine if there is an infection, which implies the presence of pathogenic bacteria, samples of the wound have to be taken and studied in a specialized laboratory. This is a long time and expensive process and we want to simplify and accelerate this procedure. |
| − | The solution for the problem is a hydrogel, which is characterized by containing water, forming a solid three-dimensional network structures and being water insoluble. Most hydrogels could swell in aqueous solutions; for our purpose, as a wound bandage, it can be used to absorb some of the wound fluid. Furthermore it can be attached hermetically and the moisture provided by the hydrogel leads therefore to ideal wound healing conditions. | + | The solution for the problem is a hydrogel, with the advantages of the special characteristics such as biocompatibility, elasticity, and modifiable chemical properties. Most hydrogels could swell in aqueous solutions; for our purpose, as a wound bandage, it can be used to absorb some of the wound fluid. Furthermore it can be attached hermetically and the moisture provided by the hydrogel leads therefore to ideal wound healing conditions [Hilfe von Berlin]. |
| − | An optimal polymer for such a hydrogel is chitosan (poly-1,4-β-D-glucopyranosamine). It has beneficial properties like biocompatibility, biodegradability . Furthermore, chitosan has reactive amine side groups, which offer possibilities for modifications, like the linkage of a fluorophore to detect the pathogenic bacteria . <a href="#[2]">[2]</a><br> | + | <br>An optimal polymer for such a hydrogel is chitosan. Beside beneficial properties like biocompatibility, biodegradability , and film forming ability, chitosan has reactive amine side groups, which offer possibilities for modifications, like the linkage of a fluorophore to detect the pathogenic bacteria <a href="#[2]">[2]</a> . |
| − | The hemostatic chitosan is reported to have intrinsic antifungal, antibacterial, and antiviral properties. Furthermore it promotes scar free wound healing and has care effects, and is antiallergic <a href="#[3]">[3]</a>. In addition human epithelium could heal along the chitosan matrix, so no wound distance grid is necessary and it has skin cooling effects. <a href="#[1]">[1]</a>. It is an ideal scaffold material to manufacture different types of hydrogels, salves, pastes or solid bandages. Most chitosan hydrogel topical wound dressings are formed using an expensive or toxic crosslinking agent, which we want to avoid. | + | <br>The hemostatic chitosan is reported to have intrinsic antifungal, antibacterial, and antiviral properties. Furthermore it promotes scar free wound healing and has care effects, and is antiallergic <a href="#[3]">[3]</a>. It is an ideal scaffold material to manufacture different types of hydrogels, salves, pastes or solid bandages. |
| − | <br>Due to that we can deliver an optimal wound healing and monitoring bandage for these affected patients without the need to disrupt the healing process. The hydrogel should help preventing or treat wound infections of any degree of burns.
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